彭伟盼,博士,天津科技老员工物工程学院讲师。2022年毕业于天津大学,获得理学博士学位。
科研领域及方向
[1]微纳材料制备及体外分子诊断应用研究
[2]微纳核酸探针设计及疾病诊疗一体化应用研究
主要学术成果
先后发表各类科研论文20余篇,申请发明专利3项。主要学术论文有:
[1] Weipan Peng, Xiaoqun Gong, Jin Chang, etal. A Double DNAzyme-loaded MnO2 Versatile Nanodevice for Precise Cancer Diagnosis and Self-sufficient Synergistic Gene Therapy. Chemical Engineering Journal, 2022,450,138138. (一区,IF=16.7)
[2] Weipan Peng, Qian Zhao, Jin Chang, et al. An innovative “unlocked mechanism” by a double key avenue for one-pot detection of microRNA-21 and microRNA-141.Theranostics, 2019, 9(1): 279-289. (一区,IF= 11.5,)
[3] Weipan Peng, Yi Qin, Jin Chang, et al. Nonenzyme Cascaded Amplification Biosensor Based on Effective Aggregation Luminescence Caused by Disintegration of Silver Nanoparticles. ACS Sensors, 2020,5, (7):1912-1920. (一区,IF=9.6)
[4] Weipan Peng, Qian Zhao, Jin Chang, et al. Ultra-sensitive detection of microRNA-21 based on duplex-specific nuclease-assisted target recycling and horseradish peroxidase cascading signal amplification. Sensors and Actuators B,2018,263(15):289-297.(一区,IF= 9.0)
[5] Weipan Peng, Yiwen Huang, Jin Chang, et al. A fluorescent signal “removal” sensor via duplex-specific nuclease-aided cleavage for miRNA detection in flow cytometry. Colloids and Surfaces B: Biointerfaces, 2020, 185,110570.(二区,IF=5.2)
[6] Weipan Peng, Wenna Li, jin Chang, etal. Development of Chromogenic Detection for Biomolecules Analysis.VIEW, 2022,3:20200191.(一区,IF=8.0)
[7] Yi Qin#, Weipan Peng#, Xiaoqun Gong, Jin Chang. MicroRNA-response DNA-programmed Nanomedicine with Controllability with Cascaded Events for Cancer Therapy Enhancement. ACS Macro Letters, 2021, 10: 654-661. (二区,IF=6.9)
[8] Yudong Wu#, Weipan Peng#, Xiaoqun Gong, Jin Chang. Immune fluorescence test strips based on quantum dots for rapid and quantitative detection of carcino-embryonic antigen. Chinese Chemical Letters, 2017, 28(9): 1881-1884. (二区,IF=8.2)
[9] Wenna Li#, Weipan Peng#, et al. A lateral flow strip biosensor platform based on cascade nucleic acid amplification technology for ultrasensitive detection of OSCC-associated salivary MicroRNA. Sensors and Actuators B, 2022,1221: 340112.(二区,IF=6.9)
[10] Qian Zhao, Jiafang Piao, Weipan Peng, et al.A Metal Chelator as a Plasmonic Signal-Generation Superregulator for Ultrasensitive Colorimetric Bioassays of Disease Biomarkers. Advanced Science, 2018:1800295.(一区,IF=17.5)
[11] Qian Zhao, Jiafang Piao, Weipan Peng, et al. Simple and Sensitive Quantification of MicroRNAs via PS@Au microspheres-based DNA probe and DSN-assist signal amplification platform. ACS Applied Materials & Interfaces, 2018, 10: 3324-3332.(一区,IF=10.3)
[12] Yudong Wu, Weisheng Guo, Weipan Peng, et al. Enhanced Fluorescence ELISA Based on HAT Triggering Fluorescence “Turn-on” with Enzyme-Antibody Dual Labeled AuNP Probes for Ultrasensitive Detection of AFP and HBsAg. ACS Applied Materials & Interfaces, 2017, 9 (11):9369-9377. (一区, IF=10.3)
[13] Minghui Chen, Hengxuan Li, Zhihonng Shi, Weipan Peng, et al. High Fluorescence Quenching Probe-Based Reverse Fluorescence Enhancement LFTS Coupling with IS-primer Amplification Reaction for the Rapid and Sensitive Parkinson Disease-associated MicroRNA Detection, Biosensors & Biolelectronics, 2020, 165:112278.(一区, IF=12.5)
[14] Minghui Chen, Hengxuan Li, Dianming Zhou, Weipan Peng, et al. Reusable Bioluminescent Sensor for Ultrasensitive MicroRNA Detection Based on a Target-Introducing “Fuel-Loading” Mechanism. ACS Applied Materials & Interfaces, 2019, 11: 38586-38594.(一区, IF=10.3)
申请发明专利主要有:
[1]非诊断目的基于一步荧光循环衰减法检测miRNA的方法及试剂盒,201911053939.9
[2]基于“双钥解锁机制”检测miRNA的试剂盒及应用,201910829152.5
[3]一种基于双酶信号级联放大的微小RNA-21超灵敏检测方法,2017222929636
联系方式
办公地点:天津经济技术开发区第十三大街29号天津科技老员工物工程学院
邮政编码:300457
传 真:022-60602298
Email:Peng99263858@tust.edu.cn